Rolling mill table



July 17, 1934. R. B. ZUBER ROLLING MILL TABLE Filed June 2, 1932 5Sheets-Sheet 1 NTOR ZfZuber BY v M o m ATTORNEY July 17, 1934. R. B.ZUBER ROLLING MILL TABLE Filed June 2, 1952 5 Sheets-Sheet 2 INVENTORfioberzB. Z uer I ll;

ATTORNEY July 17, 1934. R. B. ZUBER ROLLING MILL TABLE 5 Sheets-Sheet 3Filed June 2, 1932 Q & INVENTOR l aber/fifZaber BY M 4 ATTORNEY "ET OJuly 17, 1934. R. B. ZUBER ROLLING MILL TABLE 5 Sheets-Sheet 4 FiledJune 2, 1932 INVENTOR 7E0 berz B. Z u be?" BY d ATTORNEY July 17,' 1934.R. B. ZUBER ROLLING MILL TABLE Filed June 2, 1932 5 Sheets-Sheet 5INVENTOR ban 5 Z 066/ BY M a fl w ATTORNEY Patented July 17, 1934 UNITEDSTATES {PATENT OFFICE kobefi j z ubirT fi Application June 2, 1932,Serial No. 615,045"

12 Claims. (01. so -44) This invention relates to rolling mill tableshaving power driven conveyor means thereon adapted to carry thematerials to and from the rolls of a mill and aims particularly toprovide a device effective for properly aligning or orienting sheetsprior to their entry to the mill and also to provide improved means forproperly matching and positioning a plurality of sheets or bars in apair or pack before they are fed between the rolls of the mill. 'Iheabove and other features of the invention will be more fullyapparentfrom the following specification when read in connection withthe accoinpanying drawings and the invention will be defined withparticularity in the appended claims.

In the Fig. 1 is a vertical section showing the application of myimproved sheet feedingdevice' to a three high rolling mill; i

apparatus shown in Fig. 1; f

Fig. 2 is a similar elevation of the right half of the apparatus of Fig.l; T

Fig. 3 is a plan view of the parts shown in Fig. 2;

Fig. 3 is a plan view of parts shown in Fig. 2Q;

Fig. 4 is a fragmentary detail view illustrating the operation ofcertain stops and matching fingers hereinafter more fully referred to;

Fig. 5 is a fragmentary plan view illustrating the action-of certainside guards for properly aligning or squaring the sheets on theconveyor;Fig. 6 is a transverse vertical section line 6-6 of Fig. 3;

Fig. '1 is a detail section on line 14 of Fig. 3:

Fig. 8 is a transverse section on line 8-8 of Fig. 3

Fig. 9 is a fra mentary detail illustrating the manner in which one, ofthe conveyor frames is elevated; Figs. 10 and 11 show details of lockingdevices for stops.

'While for convenience and brevity I shall refer herein to sheets as thematerial to be fed to the rolls of the rolling mill, it is to beunderstood that the term sheet" is used generically to refer as welltoso-called sheet bar, plates, breakdowns and similar substantially flatstock which is adapted to be reduced in thickness and elongated by therolling operation.

In the embodiment of the invention illustrated, there is a three highsheet mill, indicated as a whole at 10. This includes a central roll a,a lower roll b and an upper roll 0. The material to be treated isusually first heated in a fumace c5 diagrammatically indicated at d.This material Fig. 2 is a side elevation of the left half of the andalso for feeding the rolled material from the catchers table to themill. But, in order to properly position the stock prior to rolling oneither table, it has been necessary to resort to laborious manual work,so as to insure that the stock will be properly fed to the rolls. Thishas necessitated the use of skilled operators who manipulate thematerial on the conveyor tables by the use of hand tongs. And whenseveral sheets are to be matched and simultaneously rolled, it isfrequently necessary to first match the sheets and then place them onthe conveyor table and properly position them by hand tongs prior torolling. This work requires skilled operators and necessitates fatiguingmuscular ef-' fort. It is also slow and costly.

The present invention aims to eliminate the necessity of positioning thesheets manually by means of tongs and the like and to provide me- .85chanical means whereby the sheets can be quickly and accurately aligned,stacked, matched and fed to the mill. As will more fully hereinafterappear, as the detailed description proceeds, the conveyor on therollers side has stops associated therewith whereby the travel of thesheet can be arrested at any predetermined point and movably mountedside guards are provided by means of which the sheets can be aligned andproperly oriented with respect to the rolls of the mill. The stopsrestrain the longitudinal movement of the sheets while they aresupported by the moving conveyor and means are"also provided for liftingthe restrained sheets, so a following sheet can be fed thereunder. Thispermits stacking the sheets, so that a plurality of them can be readilymatched and fed to the mill.

In the particular embodiment of the invention illustrated, the rollerstable 12 comprises a structural frame including side members 16 spacedapart by cross members 18, which also support a center bar 19 and chainguides 15. This frame is suitably supported at the mill end, forexample, by a cross bar 20 secured to the frame having extensions 21,whichflt in pockets the frame.

formed in brackets or lugs 22 secured to or formed on the mill housings23. The outer end of the rollers table 12 is supported on built-upstructuresupport, indicated at 24.

Mounted in suitable bearings, at the outer end of the table frame, is asprocket shaft 26. A similar shaft 27 is mounted at the inner end ofThese shafts each carry a pair of sprockets 28 and 29, over which theconveyor chains 3030 travel;- These sprockets and conveyor chains aredriven through suitable gear- 35, one of which is best shown in Fig. 2This permits the catchers table and the mechanism supported thereby topartake of a tilting movement about the axis of the sprocket shaft 26'.

The mill end of the supporting structure 34, to-

which the catchers table is hinged, carriess'lotted brackets 39, asshown in Fig. 2 The slot of each bracket engages a transverselyextending bar 36 carried by brackets 38, each of which is adjustablysecured by a bolt and slot connection to a lug on the mill housing asshown. This arrangement permits the supporting structure 34- and itsrelated parts to be readily moved vaway from the mill as a unit so as tofacilitate changing rolls in the mill.

The conveyor chains 30', idlers 33', supporting sprockets 28 and 29',shafts 26' and 27', gearing 31' and motor 32' are substantially the'sameas similar parts on the rollers table.

After sheets or packs of sheets haveflbeen fed through the lower pass,that is between'the rolls a and b and onto the conveyor of the catcherstable, it is desirable to returnthe, material through the upper pass,that is,-between the rolls a and c. To these ends, suitable'controllersand circuit connections are provided for reversing the direction ofrotation of the motors 32 and 32' so as to reverse the direction oftravelof the conveyor's.

For effecting the lifting and lowering movement of the catchers table, Iprovide a thruster 40, which in the embodiment illustrated is anelectrically energized device of known construction capable of liftingand lowering a link 41, which is connected with a lever .arm 42, pivotedat 43 to a bracket on the structure 34. The free end of this lever 42 isconnected by a link 44 with the frame of the catchers table. Throughthese connections, upon energization of the thruster, it will beunderstood that the catchers table may be elevated from the position ofFig. 2 to that shown, for example, in Fig. 9.

Both the rollers table 12 and the catchers table 14 are preferablyprovided with stops adapted to arrest or interrupt the travel of thematerial on the respective conveyors and both tables are also providedwith transversely movable side guards adapted to position the materialson the respective conveyors. These constitute two of the severalimportant features of the invention and will now be described in detail.

Referring first to the rollers table 12, there are three pairs of stops46, 48 and 50 slidably mounted in guides 46, 48' and 50'- secured to thetable frame. The stops 46 are adapted to be elevated above the plane ofthe conveyor chain by lever arms 46 carried on shaft 46,

which is adapted to be rocked by a manually actuated foot lever 46*. Thestops 48 and 50 are arranged to be similarly actuated by levers 48 and50*; rock shafts 48 and 50, hand lever 48 and .foot lever 50, or handlever 50. In

"order to hold any desired one of the stops 46,

48 or 50 in either its elevated or depressed position, 1 provide thearrangement shown in Fig. 10. On the outer end of each of the rockshafts 46, 48 and 50, there will be a short lever arm, such as indicatedat 52. This will be connected by means of a bent-rod 54 with a tensionspring 56. When the operating lever is moved to a position to elevatethe stop, as indicated in full lines in the figure, the spring will holdthe stop in such elevated position because the lever 52 will be thrownover dead center. On the other hand, when the operator depresses thestop by shifting the lever in the opposite direction, the spring 56 willhold the arm 52 in the dotted position because the lever 52 will then bethrown over dead center in the opposite direction and thus hold the stopin pressed position, so as not to interfere with the travel of sheets onthe con- ,veyoia- Although I have shown a spring 56 for yieldinglyholding the stops in depressed position, it will be understood that thestops may be similarly held by the use of a counterweight 58 passingover a guide pulley 60, as indicated in the modification shown by Fig.11.

On the catchers table, there are similar pairs of stops 62, 64 and 66adapted to be either elevated or depressed by manually actuatedoperating lever 62 64 and 66*. These levers operate rock shafts 62, 64and 66 carrying stop operating arms 62*, 64 and 66 For properlyorienting any materials being fedv by the conveyors or for aligningsheets with one another and squaring them with the rolls of the mill, Iprovide transversely movable side guides on both the rollers table andthe catchers table. Referring first to the rollers table, at the sidesthereof and extending in the direction of travel of the conveyor, thereare longitudinally extending side guides 68 and 70. These upstandingguides are secured to angle bars 68 and '10, which in turn are securedto transversely extending bars 68 and 70 which are slidably mounted insuitable apertures formed in the frame members l616. The respective bars68 and '70 carry collars at about the centers of their length, thesecollars have pins 68 and 70, respectively, which pass through slots 68'and '70 of an operating lever 72, which is pivoted at 74 to one of thecross members of the frame. By rocking the lever 72 in one direction, itwill be understood that the side guides 68 and '70 will 'beseparated andby rocking the lever in the opposite direction, they will approach oneanother. As shown in Fig. 3, there can be moved toward and away from oneanother 11 For . be caused to move in and out in parallel relation inresponse to manual movements of the operating lever 78' on the catcherstable. The function of the orienting or squaring device is graphicallyillustrated in Fig. 5 where I have shown in dotted lines at S a sheetskewed out of true on the conveyor. Such a sheet can be properlyoriented or lined up on the conveyor by manipulation of the operatinglever 78' so as to restore the sheet to its full line position,indicated at S.

During such orienting of the sheet, the stops hereinabove referred tomay be also brought into play, so as to arrest the travel of the sheet-It will also be understood that manipulation of the transverselyshiftable side guides 68 and 70 (or 68' and 70') will serve to properlycenter the sheet with the rolls of the mill. This is eflective becauseregardless of the position of the side guides 68 and 70 (or 68' and '70)they are substantially equi-distant from the longitudinal center line:c-y of Fig. 5, which center line intersects the center of the length ofthe rolls of the mill. Inasmuch as the parallel side guides 68 and 70and 68' and 70 are perpendicular to the axes of rotation of the rolls a,b, and c, it is clear that manipulation of such guides will serve toaccurately square the substantially rectangular sheets with the rolls ofthe mill. These side guides are also useful in properly positioning twoor more superposed sheets which are to be rolled as a pair or pack, aswill presently appear.

It is also apparent that the stops 46, 48, 50, 62, 64 and 66 may bearranged in pairs, as shown in plan in Figs. 3 and 3 and located so asto bealigned inparallel relationship to the axes of rotation of therolls of the mill. Hence by causing the conveyors to feed the sheetsagainst a selected pair of elevated stops until the forward edges of thesheets strike such stops, when the stops are lowered, the sheets willtravel forward on the conveyors with their leading edges substantiallyparallel with the rolls.

In many cases, it'is desirable to stack two or more sheets in superposedrelationship so as tofeedthemtothemilLasapairorasapack. For thispurpose, I provide so-called matching fingers, best shown at in Figs. 1,2 and 4c These matching fingers are adapted to lift one end of a sheet,the opposite edge of which is restrained from moving relatively to theconveyor by a pair of stops, which have previously been elevated by themanual operation of the appropriate operating lever.

As shown in elevation in Fig. 4 and in plah view in Fig. 3, there aretwo matching fingers 80, each of which is pivotally mounted at 82 on thefree end of an arm 84 secured to a rock- -shaft 86. The fingers 80 carrycounterweights 88,.which normally tend to position them in thesubstantially upright position shown in Fig. 2. Such an arrangement willpermit each finger to be rocked about its pivot 82 for a purpose to behereinafter referred to.

The rock shaft 86 is pivotally mounted in suitable bearing aperturesformed in the side frame members 16 of the rollers table. For rockingthe shaft 86 in order to elevate the matching fingers 80 (see 6) Iprovide a foot treadle 91, pivoted at 90 and connected through pin andslot connection with a link 92, which in turn connects with a lever 94secured to the rock shaft 86.

Assuming the conveyor chain 30 in Fig. 4 to be traveling to the left, asindicated by the arrow, and that the stop 48 is elevated, as shown thesheet S on the table will have its movement restrained by the stop.Then; as theoperator actuates the treadle, the matching finger 80 willelevate one end of the sheet to the position substantially asillustrated in Fig. 4. With the conveyor still in motion, a followingsheet, such as indicated at S, will be fed under the sheet S. Continuedmovement of the conveyor will carry the lower sheet to a point under theupper sheet, where it will strike the matching finger 80 and cause it torock about its 'pivotal support at 82 on the "lever 84. Thus, the lowersheet will be moved rearwardly by the conveyor while the movement of theupper sheet is restrained by the stop 48. This arrangement, it will beunderstood, will permit the building up of a stack of two pr moresuperposed sheets. If, during this stacking, the sheets tend tobecome.misaligned, the lever '78 may be actuated, so as to bring theside guides into play, so as to effect a proper matching of the sheets.After two sheets have been matched, a further following sheet may bematched by releasing pressure on the treadle, so as to permit the lever84 to return to its lower position of Fig. 2, whereupon the lever canbe' again rocked to lift the matching fingers 80, so as to elevate thepreviously stacked sheets to permit still another sheet to be fed underthe superposed sheets.

After two or more sheets have been matched, the operator will operate acontroller so as to reverse the direction of travel of the conveyorchains 30 and thus the matched pack of sheets will be fed to the lowerpass between the rolls a and b of the mill.

As the sheets or stacks of sheets leavethe conveyors to enter betweenthe rolls of the mill, it is desirable to elevate them slightly abovethe plane of the conveyor chains. For this purpose, I provide disc-likemembers 96 and 96" on the sprocket shafts .2'1-27' adjacent each of thechain supporting sprockets 29-29. These discs are of larger radii thanthe clearance radii of the chains and they serve to lift the materialclear of the chain as the material enters the pass of the mill, an'dalsoassist in the 'proper. alignment of the-material. Strippers "98 and 100,as shown in Fig. 9, are mounted on the roll housings and they serve,respectively, as transfermeans-for sheets from the top and bottom passesof the mill tothe tables. These strippers may be of any suitable formused in the art. Associated with the stripper 98, there will usually bea roller 102 mounted on ball bearings. It will be understood that as thesheets leave the lower pass of the mill, between rolls a and b, theywill pass over the stripper 100 and onto the conveyor on the catcherstable. Similarly, as the sheets leavev the upper pass between the rollsa. and 0, they will pass over the stripper 98 and onto the rollerstable.

The several sets of stops described may be so located or positioned onthe rollers and catchers tables as to suit the size of sheets beinghandled. These stops and their actuating levers may be hand, foot, orpower controlled and it will be.

understood that by proper manipulation of the stops the sheets, or likematerial can be stopped at any desired position on either table andstarted from that position at the will of the operator. Also the sheetscan be properly squared on the table as the conveyors carry theirleading edges 5 into engagement with the stops.

In practice, it is frequently desirable to roll sheet bar in packs ofthree. This operation can be conveniently and rapidly accomplished bythe utilization of the apparatus involving rmr invention. In such anoperation, three sheet bars are fed in succession from the furnace donto the conveyor chains 30 on the rollers side of the mill. Theconveyor at this time will be travelling'in the direction to feed thesheets toward the mill. The operator will first raise stop 46 to arrestthe travel of the first sheet. He will then raise stop 48 to hold thesecond sheet on the conveyor. After this, he will elevate the stop 50 soas to hold the third sheet. The lever 78 will then be rocked so as tocause the side guides 68 and 70 to line up the three sheet bars whilethey are still restrained from travelling forward on the conveyor by theelevated stops. The stops 46, 48 and 50 will then be depressedsuccessively, thus the conveyor will feed the three sheets successivelybetween the lower pass of the mill. The sheets will then be carried awayfrom the niill by the conveyor chains on the catchers side. The stop 66most remote from the mill will be elevated to restrain 30 the movementof the first sheet. Then the stop 64 will be elevated to restrain themovement of the second sheet and finally the stop 62 will be elevated toarrest the travel of the third sheet. The side guides 68' and 70' willthen be brought into play by rocking the operating lever '78. Thethruster 40 will then be energized so as to raise the table to aposition in which the sheetscan be fed through the upper pass of themill between 5o tinue' to travel. At this time, in order to cause aproper matching of the sheets, the operator will depress the foottreadle 91. Thiswill cause the matching fingers 80 to lift the edge ofthe sheet nearest the mill, as indicated in Fig. 4. The stop 62 on thecatchers table willthen be depressed.

Thus the second sheet will be fed forward and between the rolls a and c.This sheet will-be carried away from the mill on the rollers side by theconveyor chains 30 and because the sheet previously fed has beenelevated by the matching fingers 80, the second sheet will be fed underthe elevated sheet, as indicated in Fig. 4. As this second sheet S inFig.4 moves rearward, it will rock the ,matching finger-80 about itspivotal support and '65 continued rearward movement of the conveyor willcarry the second sheet 8 rearwardly until it strikes the stop 48 on therollers side.

The operator on the catchers side will then depress the stop 84restraining the movement of the last sheet. This sheet will then becarried into the upper pass of the mill by the conveyor and onto theconveyor chains 30 on the rollers side. treadle 9l.so as to cause thematching finger to lift the ends of the two sheets previously Theoperator will then again actuate thematched. Thus the third sheet can bematched with the two previously matched sheets. The conveyor will carrythe third and bottom-most sheet rearwardly against the stop 48, the'sldeguides will then be brought'into play so as to properly stack and alignthe superposed pack of sheets with the rolls of the The thruster 40 willthen be deenergized and the catchers table will be lowered. The conveyoron the rollers side will then have its direction of movement reversedwhereupon the matched pack of sheets will be fed to the lower pass ofthe mill between the rolls a and c. They can thus be run out and stoppedat any 'desired position on the catchers table. Here they can be alignedby bringing side guides into play. The catchers table will then beelevated and this pack may then be repeatedly fed through the upper andlower passes of the mill as many times as required in order to reducethe sheets to the required thickness, it being understood that theactive pass between the rolls is controlled by the usual screw downdevice commonly used in rolling mills.

The operation described is but one of many which can be carried out onthe apparatus as will be readily apparent from the foregoing disclosure.

Various modificaticns may be made by thoseskilled in the art withoutdeparting from the invention as defined in the appended claims.

What I claim is:-

I 1. In combination with the rolls of a sheet mill, respective conveyorson opposite sides, of the mill, each conveyor adapted to feed sheetstoward or from said rolls, respective manually controlled means adaptedto arrest thetravel of sheets on the conveyor, a pivotally mounted armbelow the sheet supporting plane of the conveyor,

:a substantially upright lifting finger pivotally secured to said arm,and means normally tending to hold said finger in an upright position,but adapted to yield when the finger is struck by material traveling onthe conveyor.

2. Apparatus of the character described adaptedto feed material to andfrom the rolls of a sheet mill comprising a chain conveyor, supportingsprockets for the conveyor, side guides extending parallel to the lineof travel of the conveyor, supporting means for said side guides, meansunder control of an operator for moving the guides to narrow or widenthe space between them and rotating lifting means traveling at aperipheral speed greater than the linear speed of the conveyor andeffective to lift the material clear of the conveyor chains just priorto its entry between the rolls of the mill.

3. An apparatus of the character described including in combination therolls of a sheet mill, a rolling mill table associated therewithcomprising a chain conveyor, shafts supported by the table and carryingsprockets of said conveyor, rotary discs of a diameter greater than thediameter of the sprocket wheels carried on the sprocket shafts adjacentthe rolls, said discs rotating at the same speed as said sprockets butat a peripheral speed greater than the linear speed of the chainconveyor and eflective to lift the material clear of the conveyor justprior to its entry to the rolls of the mill.

4. Apparatus of the character described for feeding material to and froma sheet mill comprising a rolling mill table including a. frame carryinga power driven conveyor, 0. series of movable stops, means for elevatingthe steps above the supporting plane of the conveyor 150 to arrest thetravel ofmaterial thereon, matching fingers adapted to lift sheets abovethe plane of the conveyor, a side guide slidably mounted on said frame,means for manually actuating said side guide, conveyor sprockets carriedby shafts supported by said frame and discs on certain of said sprocketshafts adapted to lift the material clear of the sprockets just prior tothe entry of the material to the mill.

5. In combination with a mill having a plurality of rolls defining upperand lower passes, feed tables located on opposite sides of the mill eachcarrying a reversible conveyor, means for moving at least one of saidfeed tables vertically, so as to position it for coaction with eitherthe upper or lower pass of the mill, respective movable stops on eachfeed table arranged to arrest the travel of material at variouslocations along the table at the will of an operator, and manuallyactuated means on one feed table for lifting the restrained material topermit the conveyor to feed other material thereunder. V

6. In combination with a mill having a plurality of rolls defining upperand lower passes, feed tables located on opposite sides of the mill,each carrying a reversible conveyor, means for moving at least one ofsaid feed tables vertically, so as to position it for coaction witheither the upper or lower passes of the mill, respective movable stopson each feed table, arranged to arrest the travel of material at variouslocations along the table at the will of an operator, and manuallyactuated means on one feed table for lifting the restrained material topermit the conveyor to feed other material thereunder and manuallyoperated means movable transversely of the line of travel of thematerial for side matching the stacked material.

'7. In combination with a plurality of rolls of a sheet mill defining anupper and lower pass, a normally fixed feed table having a reversibleeonveyor for feeding material to one pass of the mill, a verticallymovable feed table having a reversi ble conveyor adapted to feed orreceive material from either the upper or lower pass of the mill,movable stops associated with each conveyor for arresting the travel ofsheets thereon at desired locations, and means associated with one ofsaid conveyors for lifting a sheet restrained by a stop associated withthat conveyor so as to permit it to feed another sheet thereunder.

8. In combination with a plurality of rolls of a sheet mill defining anupper and lower pass,

- a normally fixed feed table having a conveyor,

veyors, and means on one of said feed tables movable substantially atright angles to the direction of travel of the conveyor for aligningsheets thereon.

9. In combination with a plurality of rolls of a mill defining an upperand'lower pass, a normally fixed feed table having a conveyor, areversible motor for driving said conveyor, an ad-' justable tablelocated on the side of the mill opposite the first-named table, meansfor positioning the adjustable table for a coaction with either theupper or lower pass of the mill, a reversible conveyor carried by saidadjustable table, respec- 'tive manually controlled means for arrestingthe travel of sheets on each of said conveyors, and means on one of saidfeed tables movable substantially at right angles to the direction oftravel of the conveyor for aligning sheets thereon and manuallycontrolled means on the fixed feed table for displacing a sheet on theconveyor thereof so that a following sheet will be moved by the conveyorinto stacked relationship with a sheet whose movement has beenrestrained by said arresting means.

10. In combination with the three rolls of a mill defining an upper andlower pass, a fixed feed table on one side of the mill, a tilting feedtable on the opposite side of the mill, means for tilting the lattertable to a position for cooperation with the upper and lower passes ofthe mill, respective reversible conveyors on each of said feed tables,respective stops on each of said tables, manually operable means forpositioning the stops to interrupt the travel of sheets at apredetermined location on each of said tables, and means on the fixedtable for elevating one end of a restrained sheet so that a followingsheet may be moved by the conveyor into stacked relationship with therestrained sheet.

11. In an apparatus of the character described, a conveyor adapted tofeed sheets or the like to or from the rolls of a mill, manuallyactuated stops adapted to arrest the travel of sheets on the conveyor,means located below the conveyor for elevating material on the conveyorincluding movable supports carrying pivotally mounted sheet-engagingfingers, yielding means normally holding said fingers in an uprightposition and manually controlled means for elevating or depressing saidmovable supports.

12. An apparatus of the character described for feeding material to asheet mill comprising a rolling mill table carrying a power'drivenconveyor, means for driving the conveyor in opposite directions, aseries of movable stops adapted to arrest the endwise movement of thesheets at different locations on a conveyor, respective means formanually elevating the steps above .the supporting plane of theconveyor, manually actuated matching fingers adapted to elevate one endof a sheet above the plane of the conveyor while the other end thereoffulcrums against one of said stops, a side guide mounted for movementtransversely of the line of travel of the conveyor and means foractuating said side uide.

ROBERT B. ZUBER.

